张满 - 导师信息

个人简介

张满，女，汉族，1988年10月生，山东菏泽人，中共党员，博士，副教授，研究生导师。

学习及工作经历 2019.5-至今长江师范学院电子信息工程学院教师，副教授2016.8-2019.4 中国科学院光电技术研究所助理研究员 2013.9-2016.7 中国科学院大学中国科学院光电技术研究所光学工程专业学习，获工学博士学位 2010.9-2013.7 中国科学院大学中国科学院光电技术研究所光学工程专业学习，获工学硕士学位 2006.9-2010.7 山东师范大学物电学院应用物理学专业学习，获工学学士学位

成果提出了一种新型的巯基-烯纳米压印胶和纳米压印复合模板，突破了高分辨率微纳结构的低成本大批量制备难题；提出了一种自供电的摩擦纳米发电机传感技术，促进了传感电子设备的微型化和智能化的发展。研究成果运用到衍射光学元件、体感设备、显示设备、医疗和穿戴式电子设备等领域，有效支撑电子信息专业硕士智能感知与信息处理技术的智能感知材料、器件与系统集成技术的发展。

主持国家自然科学基金青年基金项目1项，重庆市自然科学基金面上项目1项，四川省科技厅项目2项。

主持及参与项目 1. 国家自然科学基金青年基金项目，No. 51703227，《微尖模板诱导可控龟裂制备纳米通道方法研究》，2018/01-2020/01，24万，在研。 2. 重庆市自然科学基金面上项目，No. cstc2019jcyj-msxmX0878,《基于高深宽比纳米线阵列的智能传感技术研究》，2019/07-2022/06，20万，在研。 3. 四川省科技支撑计划项目，No. 2016RZ0067，《基于双面纳米结构的高效可穿戴摩擦纳米发电机研究》，2017/05-2018/12，10万，正在验收阶段。 4. 四川省科技创新苗子工程项目，No. 2015108，《基于模板诱导龟裂效应的纳流控DNA芯片制造技术研究》，2015/05-2016/05，5万元，已结题。

获奖情况 2021年巴渝青年学者

主讲课程《光纤通信技术》、《通信工程专业应用》

研究领域

微纳光学结构和器件制备技术、巯基-烯纳米压印胶和工艺技术、光电智能感知技术和器件应用研究等

学术兼职

多次受邀担任SCI期刊的审稿人：

Optical Materials, International Journal of Modern Engineering Research, Journal of Industrial and Engineering Chemistry, Journal of Electronics and Sensors

近期论文

[1] Zhang, M., Xia, L.-P., Dang, S.-H., Cao, A.-X., Deng, Q.-L., & Du, C.-L. (2020). A Novel Nanoimprint Lithography Thiol-ene Resist for Sub-70 nm Nanostructures. Science of Advanced Materials, 12(6), 779–783.

[2] Zhang, M., Xia, L., Dang, S., Cao, A., Shi, L., & Du, C. (2020). Roller nanoimprint lithography for low-cost nanoscale random lattice diffractive optical elements. AIP Advances, 10(3), 35221.

[3] Zhang, M., Xia, L., Dang, S., Shi, L., Cao, A., & Du, C. (2020). Self-powered flexible pressure sensors based on nanopatterned polymer films. Sensor Review, 40(6), 629–635.

[4] Zhang, M., Xia, L., Dang, S., Cao, A., Shi, L., Pang, H., & Du, C. (2019). Electrical Properties of Double-Sided Polymer Surface Nanostructures. Nanoscale Research Letters, 14(1), 230.

[5] Zhang, M., Xia, L., Dang, S., Cao, A., Shi, L., Deng, Q., & Du, C. (2019). Fabrication of Vertical Organic Nanowire Arrays via Modified Nanoimprint Lithography. Nanoscience and Nanotechnology Letters, 11(7), 1004–1007.

[6] Zhang, M., Xia, L., Dang, S., Shi, L., Cao, A., Deng, Q., & Du, C. (2019). A flexible single-electrode-based triboelectric nanogenerator based on double-sided nanostructures. AIP Advances, 9(7), 75221.

[7] Zhang, M., Xia, L., Dang, S., & Du, C. (2019). Novel hybrid adhesive material based on thiol-ene system for nano-conglutination technology. In Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series (Vol. 11193).

[8] Zhang, M., Xia, L., Dang, S., Shi, L., Cao, A., & Du, C. (2019). A Flexible Pressure Sensor Based on Poly(dimethylsiloxane) Nanostructures Film. Journal of Microelectronic Manufacturing, 2(3), 1–8.

[9] Zhang, M., Deng, Q., Pang, H., Shi, L., & Cao, A. (2018). Preparation of Double-sided Nanostructure Based on Soft-nanoimprinting LithographyGeneralized Euler’Constant Family. Journal of Microelectronic Manufacturing, 1(2), 1–5.

[10] Zhang, Man, et al. Polymer Periodic Nanostructures on Curved Substrates by UV-Curable Hybrid Soft Nanoimprint Lithography. Nanoscience and Nanotechnology Letters, 2017, 9(12): 2101–2104.

[11] Man Zhang, Qiling Deng, Lifang Shi, Hui Pang, Axiu Cao, and Song Hu. Nanobowl array fabrication based on nanoimprint lithography [J]. Optik, 2016, 127: 145-147.

[12] Man Zhang, Qiling Deng, Lifang Shi, Hui Pang, Axiu Cao, and Song Hu*. Fabrication of hybrid soft-nanoimprint stamp with sub-100 nm resolution based on thiol-ene [J], Journal of Nanoscience and Nanotechnology, 2016, 16(12): 12316–12320.

[13] Man Zhang, Qiling Deng, Lifang Shi, Axiu Cao, Hui Pang, and Song Hu. Fabrication of high aspect ratio (>100:1) nanopillar array based on thiol-ene [J], Microelectronic Engineering, 2016, 149: 52-56.

[14] Man Zhang, Liangping Xia, Qiling Deng, Lifang Shi, Axiu Cao, Hui Pang, Song Hu. Nanobowl array fabrication via conglutination process based on thiol–ene polymer [J]. IEEE Photonics Journal, 2015, 7(4):1-6.

[15] Man Zhang, Qiling Deng, Liangping Xia, Lifang Shi, Axiu Cao, Hui Pang, Song Hu. Hollow nanospheres array fabrication via nano-conglutination technology [J]. Journal of Nanoscience & Nanotechnology, 2015, 15(9): 6798-6800.

[16] Man Zhang, Qiling Deng, Lifang Shi, Hui Pang, Axiu Cao, and Song Hu. Fabrication of hybrid soft-nanoimprint mold in benign ambient based on thol-ene [J]. Optik, 2015, 126(23):4123-4126.

[17] Liangping Xia, Man Zhang, Zheng Yang, Hongliang Cui, Shaoyun Yin, Song Hu and Chunlei Du. Nanochannel fabrication by imprinting-induced cracks [J]. Applied Physics Letters, 2014, 104(7):073104-073104-4.

[18] Zhang Man, Deng Qiling, Pang Hui, Shi Lifang, Cao Axiu . Preparation of Double-sided Nanostructure Based on Soft-nanoimprinting Lithography, Journal of Microelectronic Manufacturing, 1, 18010201 (2018).

[19] 张满，邓启凌，李志炜，庞辉，史立芳，曹阿秀，胡松. 基于巯基-烯材料的亚波长光栅制备方法研究[J]. 光电工程, 2016.

[20] Zhang M, Deng Q, Shi L, et al. Fabrication of resonant subwavelength grating based on thiol-ene [J]. Proceedings of SPIE, 2014, 9283: 92830R-1-92830R-6.

[21] Man Zhang, Qiling Deng, Lifang Shi, Hui Pang, Axiu Cao, and Song Hu. Fabrication of nano-pillar with sub-100nm resolution based on thiol-ene [J]. Proc. of SPIE, 2014, 9277: 92771U-1～92771U-7.

[22] Zhang M, Li Z, Shi L, et al. Fabrication of optical elements using a rapid UV-curable and low-viscosity polymer material [J]. Proceedings of SPIE, 2013, 8759:875926-875926-5.